Thanks to another Svante (Arrhenius in this instance) the relative reaction rate for the hydrolysis reactions away from the effects of direct sunlight in space (T approx -270oC) is going to be many orders of magnitude lower. At 100k years you would only need it to drop by 16 fold to get the to same age as the universe (don't ask me to calculate it though :-).
Does leave the little problem of where life came from in the first place...
Either way the first DNA sequencer on Mars might hopefully give an answer as to whether the theory is possible.
Re ancient DNA I wonder whether anyone has looked in crude oil for non-bacterial DNA/protein sequences. I know you can find things like porphryin in there but I guess it might be too non-polar for DNA, you might find some lipophilic pepdites though.
Zeb
Date: Mon, 14 May 2012 10:36:31 -0400
Subject: Re: [DIYbio] Information physics and theoretical limits of extremely old DNA?
From: inactive.e@gmail.com
To: diybio@googlegroups.com
you could check and see if that video is up. It was a good talk!
--A
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Does leave the little problem of where life came from in the first place...
Either way the first DNA sequencer on Mars might hopefully give an answer as to whether the theory is possible.
Re ancient DNA I wonder whether anyone has looked in crude oil for non-bacterial DNA/protein sequences. I know you can find things like porphryin in there but I guess it might be too non-polar for DNA, you might find some lipophilic pepdites though.
Zeb
Date: Mon, 14 May 2012 10:36:31 -0400
Subject: Re: [DIYbio] Information physics and theoretical limits of extremely old DNA?
From: inactive.e@gmail.com
To: diybio@googlegroups.com
| Svante Pääbo had something to say about it at the GET conference. |
--A
On Mon, May 14, 2012 at 9:59 AM, Bryan Bishop <kanzure@gmail.com> wrote:
I've been wondering about ancient DNA.There is at least one claim from the panspermia folks that says, among other things, that DNA and microbes can travel on asteroids for millions of years. But at the same time, nobody has figured out a reliable PCR protocol for extracting DNA from million-year-old bugs trapped in ambers. We've successfully extracted DNA from "recently" deceased hominids and other creatures- say, those that have been living within 50 kya."Assuming physiological salt concentrations, neutral pH and a temperature of 15 C, it would take about 100k years for hydrolytic damage to destroy all DNA that could be reasonably retrieved (Hoxreiter et al., 2001)."which primary cites "Instability and decay of the primary structure of DNA" (too old to find a copy?).Meanwhile.. the panspermia claim is over here from Wikipedia: "Studies of bacteria frozen in Antarctic glaciers have shown that DNA has a half-life of 1.1 million years under such conditions, suggesting that while life may have potentially moved around within the Solar System it is unlikely that it could have arrived from an interstellar source. [68]"... ha, a "half-life". Anyway, their reference doesn't exist anymore, so if anyone knows the actual study in question, I'd like to know about it too.I haven't seen any particular study about million year old DNA molecules. Gamma photons will probably screw it up over time, and the salt concentration has to play a role somewhat. But I would expect something like a theoretical study about the possible ways that DNA could be stored reliably, and then seek out fossilized or ancient DNA by looking for similar conditions. I am not convinced that "drill into amber, insert some buffer mix into a fly carcass, PCR the mix" is a reliable strategy for extracting old DNA. The DNA could be found first through some physical technique, like scanning probes or something.Does anyone have some better documents I could look over?
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